The non-exciting tap changer of the power transformer is also called the no-load tap changer. It can only be used to change the effective turns of the transformer winding when the transformer is stopped and there is no excitation, so as to achieve the purpose of changing the ratio and the output voltage of the transformer. . Therefore, the tapping switch has a small design capacity and does not require arc-extinguishing measures, and the switching operation is limited to manual local operation. However, due to lack of oil in the transformer, poor quality of the switch, different maintenance, careless use, and inconsistent gear shifting, the entire transformer will burn out. In the power transformer we have overhauled. About 25% of the power transformer damage caused by the failure of the on-load tap-changer.
1 Causes of failure (1) Transformer oil leakage (conductor rod nut is not tight, cover, oil seal, drain valve, weld, etc.) exposes the unloaded tap-changer to the air, making it gradually damp. Because the oil indication of the power transformer is in the middle of the oil pillow, the carbide produced by the transformer in the operation is heated and then produces oil coke and other substances to block the oil hole and cause the fake oil surface. A small amount of transformer oil remains in the oil mark. It is mistaken to think that the oil level is low and does not pay attention to refueling. For a long time, the performance of the exposed tap changer insulation is damp, resulting in short circuit and damage to the transformer.
(2) The manufacturing quality of the on-load tap-changer is poor, the structure is unreasonable, the pressure is not enough, the contact is unreliable, the position of the external character wheel is not completely consistent with the actual internal position, causing the position of the star-shaped moving contact to be incomplete contact, the movement of the misalignment The static contact makes the insulation distance between the two taps smaller, and short circuit or short circuit discharge to the ground under the potential between the two contacts, the short circuit current quickly wraps the tap coil, and even causes the entire winding to be damaged. .
(3) The transformer unloaded tap changer in operation is immersed in oil higher than normal temperature for a long time, especially in remote rural areas, the voltage is large, and the tap changer is operated in an overload state for a long time. The oil may age. Causes the carbonization film and grease stain on the contacts of the tap changer, and the spring pressure is reduced after the contact heats up (especially the spring in the contact ring, the elasticity is reduced quickly due to poor material and manufacturing process) or the deformation of the part, the lead of the tap changer The head and the wiring screw are loose and the like is not treated in time, so that the conductive part is in poor contact, the contact resistance is increased, and heat and arc burn are generated. The arc also generates a large amount of gas, which decomposes the conductive carbide and the molten copper particles. Sprayed on the box, first and second casing, between the winding layers, between the turns, etc., causing the short circuit to burn out the transformer.
(4) Some village electricians have unclear principles of unloaded tap-changers and no tools for measuring. In rural power grids far from substations, the voltage is generally low, and the village electricians mistakenly have no load. The switch is adjusted from the "2" position to the "1" position. When the voltage is lower, the tap changer is adjusted to the "3" position. The tap changer is not fully seated or the dynamic contact is twisted due to careless operation. The insulated shaft, the broken contact causes a short circuit between the wires or the ground, and finally causes the high voltage three-phase winding to burn out when the transformer is put into operation. (http:// copyright)
(5) The installation process is poor. The inspection of the fastening bolts of each part is not careful, causing the water in the transformer case to insulate the tap changer and the winding insulation is damp. There are also operations and maintenance not in place, and the "Transformer Operation Regulations" have not been strictly implemented. Most of the transformers have not been routinely cleaned and cleaned from the installation to the burnout for several years and more than ten years, resulting in poor heat dissipation conditions of the transformer. .
2 Detection method (1) In the transformer handover, overhaul, replacement of the tap-changer and the transformer after 2 years of operation, the insulation resistance value must be measured with a megohmmeter, and the DC resistance value measured by the bridge, for the transformer below 630kVA, The DC resistance phase-to-phase error value is <4%, and the line-to-line error value is <2%.
Calculation formula Rz= ×100%
RZ in the formula - error value RD - maximum resistance value RC - minimum resistance value (2) Periodically sample the transformer insulation oil (send inspection), always check the actual oil level in the oil pillow, do not be indicated by fake oil Wrong.
(3) Before and after switching the unloading tap changer, the DC resistance values ​​must be measured with the bridge before and after, and recorded.
Observe whether the balance of the three-phase DC resistance is within the allowable range, compare the DC resistance after the switching with the two records before the switching, and judge whether it is normal. By comparison, it can be diagnosed whether the above fault exists, and the cause is analyzed and processed.
(4) The on-load tap-changer of the transformer in operation is shifted locally. When testing the DC resistance, the upper oil temperature of the transformer should also be tested (because the DC resistance of the winding of the transformer is related to the oil temperature), and the tested The DC resistance value is converted to the oil temperature value at 20 °C.
Conversion formula R20=×Ra
Where R20 - the two resistance values ​​T - coefficient when converted to 20 ° C. (235 for copper and 228 for aluminum)
Ta——The upper oil temperature Ra of the transformer during measurement—the resistance value measured when the temperature is ta is not less than 0.2 in the measurement, and the large transformer should be no less than 0.05.
(5) When measuring DC resistance, the connecting wire cross-section should be selected to be larger, the length should be shortened as much as possible, and the contact must be good. When measuring with a single-arm bridge, the resistance of the test line should be subtracted from the measurement result to be the actual resistance value. . After the measurement is completed, stop the galvanometer first, then stop the battery switch to prevent the bridge from being burnt. When the line is reversed, the transformer coil must be discharged to prevent personal electric shock.
3 Inspection and repair (1) Inspection and adjustment of the on-load tap-changer is carried out after the transformer core to the exposed tap-changer (to ensure safety, the transformer end cover should be supported by square or other items before the start of maintenance) First), first, observe the contact and the lead, whether the contact column and the insulating bakelite are loose, and whether the dynamic and static contact pressure is sufficient. It can be pressed by hand, the pressure of the hand should be even. If the pressure is too small, the spring should be replaced. If there are conditions, the pressure can be measured by the dynamometer. Generally, it should be (24.5~49)×104Pa(2.5~5kg)/cm2. For non-running gears, you can repeatedly turn the tap-changer and observe if there are any traces of friction.
(2) Appearance inspection can find abnormal faults that cannot be found by the instrument, such as the heat, discoloration, deformation or discharge burn of the unloaded tap-changer in operation. Carbonization around the heating contacts, accumulation of grease, etc. If these abnormal faults are found, after the trimming can not reach the quality standard of the unloading tap-changer, the new switch must be replaced.
(3) After changing the unloading tap changer, carefully check whether the lead wire connected to the tap changer is in the correct position. Check whether the lock positioning pin is in place, then tighten the flange and the three sealing screws. The tap changer rotates in the positive and negative directions for more than 5 weeks, eliminating the oxide film on the moving and static contacts, ensuring good contact between the moving and static contacts. When rotating the contact, observe the position of the pointer and the actual position of the contact. .
(4) The DC resistance value tested before the lifting core can be used as a reference for repairing or replacing the tap changer. If the DC resistance of the first winding with a small number of winding turns is larger than other gears, the contact is poor. If the DC resistance value of a certain phase of a certain phase is larger than the resistance of the same two phases of the other two phases, and the DC resistance of the other two phases is substantially equal, then this file is mainly checked, and the cause of the failure is analyzed. . If there is dirt and grease on the tap changer contacts, wipe it off with a rag or toilet paper, and the contacts have burnt spots or carbides. Use #0 fine sand cloth to wipe the light, and the static and static contacts should be replaced with new ones. switch.
(5) The tap-changer will seep out to the outside. If the oil-resistant rubber pad is aged, it should be replaced. If the flange is not tight or the oil is leaking outward, treat it as appropriate. After the insulation part of the tap-changer is damp, it must be removed and dried for pressure test. Between the two contacts of the 6~1 0kV tap changer, the AC withstand voltage between the contact and the ground should be >2kV, 35kV The AC withstand voltage of the switch should be >5kV. If the surface of the insulation is broken and burnt in the core, the new switch must be replaced. Before removing the switch, pay attention to the number of the lead and the terminal, and record the direction to prevent the wrong wiring from burning out the transformer. .
(6) There is a break in the high-voltage lead. When burning, check the insulation distance between the phases and between the wires, the distance to the ground, and strengthen the insulation and distance adjustment according to the situation. Repair and adjust the leads. After all the defects have been processed, use Kay. Erwen double-arm bridge measures the contact resistance of each position of the unloaded tap changer should be <500μΩ, measure the insulation resistance between the contacts with 2500V megger, 6-10kV tap changer should be >100MΩ, 35kV tap The switch should be >2000MΩ.
(7) After the tap-changer is assembled and commissioned, the DC resistance of each gear position is measured in turn by the double-arm bridge, and the record is made. Note that the DC resistance value of the running gear must be placed in the last measurement. After passing the test, do not switch the position of the off-load tap-changer.
IDC D-sub Connectors
IDC (insulation displacement contact) D-sub connectors are a type of electrical connectorthat's designed to be connected to the conductor(s) of an insulated cable, most commonly a ribbon cable(a cable with many conducting wires running parallel to each other on the same flat plane).
Applications for IDC D-sub connectors
IDC D-sub connectors, attached to ribbon cables, are helpful in situations where you need to make a lot of connections without a big number of wires. They're commonly used in computer and electronic systems that require multiple data buses to link internal peripherals, such as disk drives to their drive controllers. They're also frequently used in industrial and telecom applications.
How does an IDC D-sub connector work?
With an IDC D-sub connector, there's no need for cable preparation – in other words, you don't need the strip the cables of their insulation before connecting. To connect the cable to the connector, there are sharpened blades (or contacts) on the connector that force through the insulation around the cable, making a secure connection.
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